SU970271A1 - Electrostatic field polarity indicator - Google Patents

Description

one

The invention relates to a measurement technique and can be used in the chemical and other industries to determine the polarity of electrostatic fields, for example, in the study of electrification, the prevention of fire and explosion hazard situations, etc.

A known electrostatic field polarity indicator comprising an electrostatic field converter made in the form of a rotary modulator, an amplifier connected to the input of a signal processing unit, a reference signal unit made in the form of a high-frequency generator and an indicator of positive and negative polarity RP.

A disadvantage of the known indicator is low reliability and sensitivity.

A known indicator of the polarity of the electrostatic field, containing

electrostatic field converter made in the form of a rotor modulator, an amplifier connected to the input of the signal processing unit, a reference signal unit made in the form of a photopulse converter, and a positive and negative polarity indicator connected to the output of the photo impedance converter G21 |.

ten

The disadvantages of this device are low reliability and sensitivity. The block of the reference signal of the known device is structurally complex, requires precise reciprocal

Claims (2)

15 installation of individual elements and the adjustment of mechanical components, which reduces the reliability of the device. The sensitivity of the known device is low due to the disadvantages inherent in the method underlying the polarity determination and. including a comparison of the amplitude of the measured and reference signals, in which the reference signal, depending on the sign of the intensity of the field, may coincide with the phase of the measured signal or be out of phase with it. Due to insufficient sensitivity, the determination of the polarity of weak electrostatic fields known by the device does not give the desired result. The purpose of the invention is to increase the reliability of the display and the sensitivity of the device. The goal is achieved by the fact that an electrostatic field polarity indicator containing an electrostatic field converter made in the form of a rotor connected to a motor, and a stator plate composed to the amplifier input, a reference signal block and a positive and negative polarity indicator are additionally introduced a second stationary plate, a second amplifier, a coincidence unit, and a BANGE unit, while the rotor of the electrostatic field converter is made in the form of a cylinder with rectangular slots along forming, distributing uniformly and diametrically opposite, the first stator plate of the electrostatic field converter is identical in shape of the rotor slot and is located inside the rotor parallel to its generators, the second stator plate is identical to the first one, located inside the rotor is diametrically opposite to it, the input of the second amplifier is connected to the second stator plate, the reference signal block, made in the form of a constant voltage source and an electrode, which is connected to the output of a constant source voltage and installed on the outside of the rotor opposite the second stator plate, placed in the screen, the indicator of positive and negative polarity is made in the form of two display elements, and the outputs of the amplifiers are connected to the inputs of the coincidence unit and the BANNER unit, and the enabling input of the BAN unit associated with the output of the second amplifier, and the outputs of the coincidence unit and the BANGE unit are connected to the inputs of the display elements of positive and negative polarity, respectively. Electret 1 can be used as a reference signal block. In FIG. 1 chemically shows the polarity indicator of the electrostatic field; in fig. 201 and 5 show pulses of charge, cd, and q. induced on the stator plates 3 and k with a different sign of the voltage of the electrostatic field, the corresponding bipolar current pulses c and 1, in the input circuits of the amplifiers, the pulses u and W voltage at the outputs of the amplifiers and voltage pulses at the output of the block banned Ug and the unit Uj, the electrostatic field polarity indicator contains a motor 1, on the shaft of which a cylindrical rotor 2 electrically connected to the ground is rigidly fixed with rectangular slots along the cylinder generators, distributing uniformly and diametrically opposed, the stator plates 3 and i, identical in shape to the slot of the rotor and installed inside. rotor parallel to its generators and diametrically opposed to each other, amplifiers 5 and 6, block 7 coincidence, block 8 BAN, indicators of positive 9 and negative 10 polarity, constant voltage source 11, for example positive polarity, electrode 12, connected to the output of a constant voltage source and mounted on the outside of the cylindrical rotor against the stator plate t, and screen 13. An electret can be used as a reference signal block. The electric charge polarity indicator works as follows. When the motor 1 rotates, the sectors of the cylindrical rotor 2 periodically shield the stator plates 3 and C, modulating the electrostatic field EQ, the polarity of which is necessary to determine, and the electric field of the source 11 of a constant voltage of known polarity, for example, positive. In this case, on the stator plates 3 and periodically appear induced charges, the magnitude of which varies with time in accordance with FIG. 2. The sign of the induced charge pulses is opposite to the polarities of the electrostatic field and the electric field of the sources that caused these pulses. The impulses of induced charges correspond to bipolar current pulses in the input circuits of amplifiers 5 and 6, Amplifiers 5 and 6 perceive current pulses of only a certain polarity, as a result voltage pulses appear at the output of amplifiers that do not coincide in time with different fields of the electrostatic field and the electric field of the constant voltage source 11, -E and + U (Fig. 2a) and coinciding in time with + Un and -iU (Fig. .f). Since the output of amplifier 6 is connected to the permissive input of the BAN 8 unit, in the first case (-E and + U, Fig. 2a), the pulse from the amplifier output will pass to the output of the BANNER unit and, respectively, to the input of the negative polarity indicator 10, the positive polarity of the electrostatic field + E, (FIG. 25), the voltage pulses coincide in time, therefore, at the output of the coincidence unit 7, a pulse appears that acts on the input of the indicator 9 of positive polarity. If it is necessary to register the change in polarity of the electrostatic field, positive and 10 negative polarity indicators can be provided with the Reset button or contact, with the help of which it is possible to reset the readings manually or automatically after a certain period of time, for example including at the arrival of the first pulse. The polarity indicator of the electrostatic field has a simpler scheme for indicating the sign of the floor compared to known devices. There are no mechanical components in the device that require adjustment. As a result, the invention makes it possible to increase the reliability of the indication of the polarity of the electrostatic field with the relative simplicity of the device. Due to the fact that the process of detecting the polarity of the electrostatic field in this device is based on a logical comparison of the signals (if the pulse sequences obtained by modulating the indicated electrostatic field and the electric field of the reference source coincide in time, the electrostatic field is positive , in case of a mismatch of -negative), the result of the polarity indication does not depend on the ratio of the amplitudes of the measured and reference signals (Fig. 2aD). This makes it possible to determine the polarity of weak electrostatic fields, i.e., this invention has an increased sensitivity and broadens the lower limit of the measured range. The sensitivity of the device is determined by the parameters of the input electric circuit of the amplifier 5 and, when using elements of electrometric equipment, can be very high, since the error introduced by the reference signal does not affect the measurement result. The proposed electrostatic field polarity indicator makes it possible to increase the reliability of the indication and the sensitivity of the device. Claims An electrostatic field polarity indicator comprising an electrostatic field converter made in the form of a rotor connected to a motor and a stator plate connected to an amplifier input, a reference signal unit and an indicator of positive and negative polarity, characterized in that, in order to increase reliability indication and sensitivity, a second stator plate, a second amplifier, a coincidence unit and a BAN block are additionally introduced into it, while the rotor of the electrostatic converter The casing field is made in the form of a cylinder with rectangular slots along the generators, evenly and diametrically distributed oppositely, the first stator plate of the electrostatic field transducer is identical in shape to the rotor core and is located inside the rotor parallel to its generators. diametrically opposite to it, the input of the second amplifier is connected to the second stator plate, the reference signal block, made in the form of a source of constant voltage The electrode and the electrode, which is connected to the output of a constant voltage source and installed — on the outside of the rotor opposite the second stator plate — are placed on the screen, the indicator of positive and negative polarity is made in the form of two display elements, and the outputs of the amplifiers are connected to the inputs of the and a BAN block, the enable input of the BAN block is connected to the output of the second amplifier, and the outputs of the coincidence block and the BAN block are connected to the inputs of the display elements of positive and negative polarity responsibly. Sources of information taken into account in the examination 1. Bogush E.G ,, Gross P, G ,, Kravtsov L, I., Pavlenko E.S. and Petrov 1Q. “A 702718 Electrostatic charge meter EEZ-P. - Measuring equipment, 1978, H, 5, p. 70 5 2. Abram V.K., Avakn V.V., Hayrapet and G.G., and Bek Shev. Devices for monitoring the level of electrification in apparatus with a two-phase system gas-solid particles. - Measuring 10 equipment, 19J8 № 5, s, 73 (prototype), & qiM, / Yeo .l L, f V